Singlet Charge 2/3 Quark hiding the Top: Tevatron and LEP Implications
Abstract
If c and t quarks are strongly mixed with a weak singlet charge 2/3 quark, BR(t + X) could be suppressed via the t cH0 mode, thereby the top quark could still hide below MW, whereas the heavy quark signal observed at the Tevatron is due to the dominantly singlet quark Q. This may occur without affecting the small mc value. Demanding mQ 175 GeV and mt MW, we find that BR(t + X) cannot be too suppressed. The heavy quark Q decays via W,\ H, and Z bosons. The latter can lead to b-tagged Z + 4 jet events, while the strong c--Q mixing is reflected in sizable Q sW fraction. Z t c decay occurs at tree level and may be at the 10-3 order, leading to the signature of Z b c, all isolated and with large pT, at 10-5 order.
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